KR20020074430A - manufacture method of aggregate using steel slag and device thereof - Google Patents

Abstract

PURPOSE: A method and an apparatus for manufacturing aggregate using steelmaking slag is provided to use steelmaking slag as superior recycled product by installing a steelmaking slag recycling facility to crush steelmaking slag charged, remove foreign materials mixed in the slag, and age produced products, thereby remove sulfur. CONSTITUTION: The apparatus for manufacturing aggregate using steelmaking slag comprises an adaptor screen(10) for screening steelmaking slag having a certain grain size from a raw steelmaking slag collecting site; a grizzly feeder(40) which is installed at the end part of a third transfer conveyor(93) connected to the adaptor screen to sort steelmaking slag having a grain size of 600 mm or less; a jaw crusher(50) which is installed at the end part of a fifth transfer conveyor(95) connected to the grizzly feeder to extrusion crush steelmaking slag having a grain size of 60 mm or more transferred from the grizzly feeder; and a first magnetic separator(30) and second magnetic separators(31,31') each of which are spaced apart from the third, fourth and fifth transfer conveyors(93,94,96) in a certain distance to separate iron powder from the sorted steelmaking slag, wherein the apparatus further comprises a blower and a sprayer which are installed at the lower side of the grizzly feeder, wherein the blower transfers dust generated during sorting process by the grizzly feeder to one side, and the sprayer sprays waterdrop downward so that the transferred dust is adsorbed by waterdrop.

Description

Manufacturing method and apparatus of aggregate using steel slag

The present invention relates to a method and apparatus for manufacturing aggregate using steelmaking slag, comprising: an adapter screen for filtering steelmaking slag in a steelmaking slag quarry, a hopper for storing and storing the steelmaking slag, and a primary to remove iron from the steelmaking slag. A magnetic separator, a grizzly feeder for removing large mass of steel slag, a jaw crusher for extruding and crushing a large mass of steel slag conveyed from the grizzly feeder to 60 mm or less, Provided is a method and apparatus for manufacturing aggregate using steelmaking slag, including secondary magnetic separator for separating iron from the crushed steelmaking slag.

In general, the extraction of metals from ores involves the removal of unnecessary constituents in the ore into soluble compounds and removal. In the case of steel, the introduction of limestone together with iron ore means that the calcium oxide generated in the furnace combines with silica (silicon dioxide SiO2), which is an unnecessary substance in iron ore, and has a lower melting point and a higher specific gravity than molten pig iron. It is intended to be a low mixture, which when discharged from the furnace causes the melt of the mixture to flow in layers on pig iron, such as steelmaking slag.

The name of the steelmaking slag is different depending on the type of furnace used for smelting. The furnace ash from the furnace, the furnace ash from the furnace, the furnace furnace from the furnace, and the furnace There are names such as Jeonjaejae, and their properties are also different.

Steel slag includes blast furnace slag produced during pig iron manufacturing and steelmaking slag produced during steel manufacturing. Again, blast furnace slag is divided into blast furnace cooling slag and blast furnace slag slag according to the difference of cooling method, and steelmaking slag is divided into converter slag and electric furnace slag according to the difference of steel manufacturing method.

The chemical composition of steel slag is shown in Table 1.

Kinds ingredient(%) SiO ₂ CaO Al ₂ O ₃ T · Fe MgO S MnO TiO ₂ Blast furnace slag 33.8 42.0 14.4 0.3 6.7 0.84 0.3 1.0 Converter slag 13.8 44.3 1.5 17.5 6.4 0.07 5.3 1.5 Furnace Slag Oxide slag 19.0 38.0 7.0 15.2 6.0 0.38 6.0 0.7 Reducing slag 27.0 51.0 9.0 1.5 7.0 0.50 1.0 0.7

Blast furnace slag is mainly produced in Pohang and Gwangyang Steel, with annual output of 8 million tons. It is nearly 100 million in road expansion and pavement (for insects, auxiliary insects, frostbite prevention layer), concrete aggregates, earthwork materials, ground improvement materials, cement raw materials, and silicate fertilizer. % Is being recycled.

However, steel slag is generated at 4.5 million tons per year in domestic steel companies, but contains a small amount of sulfur and slag contains a large amount of glass to expand the aggregate, and the shape of the aggregate is angled when crushed. There was a problem of only 40 ~ 50% reuse level for soft ground improvement. In addition, converter slag contains a large amount of nowadays (usually 15-25% of steelmaking slag), so the present recovery operation must be accompanied.

In addition, when the steelmaking slag is thrown into the sea as it is, calcium oxide (CaO) in the steelmaking slag is converted into an alkali compound such as Ca (OH) 2 by seawater and salt to contaminate the seawater, and eventually to the habitat of fish and seaweeds. When this steelmaking slag is left on land, alkaline fine powders such as calcium oxide can be scattered in the air due to weathering, causing damage to residential neighborhoods and nature.

In particular, in the grinding process of steelmaking slag, pollution such as dust and noise occurs and the working environment of the workplace is poor. In addition, the powdered steelmaking slag remaining after the present recovery has a problem such as ground subsidence when its main component is composed of CaO.

An object of the present invention for improving the above problems, by installing a steelmaking slag recycling facility to break the charged steelmaking slag to 60mm or less and completely remove the foreign matter (scrap metal) and the like mixed in the steelmaking slag produced product It is to be used as an excellent recycling product by removing sulfur by aging in aging growth for a certain period of time.

In addition, to provide an aggregate manufacturing method and apparatus using a steelmaking slag installed to remove the dust and powdered steelmaking slag generated in the process of grinding the steelmaking slag by installing a blower and a sprayer on one side equipped with a jaw crusher.

1 is a simplified configuration diagram of an aggregate manufacturing apparatus using steelmaking slag applied to the present invention.

2 is an operational state diagram according to another embodiment of the present invention.

Figure 3 is an overall process diagram of the aggregate manufacturing apparatus using steelmaking slag applied to the present invention.

<Code Description of Main Parts of Drawing>

10 ... Adapter screen 20 ... Hopper

30 ... 1st magnetic separator 31 ... 2nd magnetic separator

40 Grizzly Feeder 50 Jaw Crusher

70 ... Atomizer 80 ... Breaker

In order to achieve the above object, the present invention, the adapter screen for filtering steelmaking slag of 300mm or less in the steelmaking slag quarry and the end of the third transfer conveyor connected to the adapter screen is selected to screen steelmaking slag of 60mm or less A grapple feeder, a jaw crusher installed at the distal end of the fifth feed conveyor connected to the grizzly feeder to extrude and crush the steel slag of 60 mm or more moved from the grizzly feeder, and to be spaced apart from the third, 4, and 6 feed conveyors It consists of a first magnetic separator and a second magnetic separator to separate the iron from each of the selected steelmaking slag.

The adapter screen according to the present invention is based on having a 300mm particle size, but the particle size of the screen can be added or subtracted according to the required use.

In addition, the grizzly feeder according to the present invention is based on having a 60mm particle size, the size of the particle size, like the adapter screen, of course, can be made larger or smaller as needed.

In addition, in the downward direction of the grizzly feeder according to the present invention, a blower for moving the dust generated in the process of sorting by the grizzly feeder to one side, and spraying the water droplets downward so that the moved dust is adsorbed by the water droplets Characterized in that the sprayer can be installed more.

On the other hand, the present invention, the first step of screening the steelmaking slag to a certain particle size by inserting the steelmaking slag, the second step of sorting the first screened steelmaking slag to a certain particle size in a grizzly feeder connected to the hopper, and the second screening Provides a method for producing aggregate using steelmaking slag comprising the step of removing foreign matters from the steelmaking slag, and removing iron by a secondary magnetic separator, and moving the steelmaking slag from which iron has been removed to aging growth and aging for a certain period of time. .

In addition, the primary screening step according to the present invention, by using an adapter screen having a particle size of 300mm or less to screen the steel slag of 300mm or less, the steelmaking slag of 300mm or more is moved to the second transfer conveyor and crushed by a breaker After moving to the adapter screen again.

In addition, the secondary screening step according to the present invention, using a grizzly feeder having a particle size of 60mm or less to screen the steel slag of 60mm or less, steelmaking slag that does not pass through the grizzly feeder is passed through the jaw crusher 60mm or less It is characterized by breaking into steelmaking slag.

In addition, the secondary screening step, the dust generated during the screening in the grizzly feeder to move in one direction by a blower installed on one side, the sprayer is installed to spray the water droplets in the downward direction is adsorbed to the water droplets Characterized in that further steps are added.

In addition, the aggregate produced according to the present invention is characterized in that it consists of a particle size of 60mm or less from the sulfur component is removed.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, the present invention includes an adapter screen 10 for inputting steelmaking slag, which is a raw material, and sorting steelmaking slag of 300 mm or less, and a hopper 20 for storing and storing steelmaking slag filtered from the adapter screen 10. ), And the gritty eye chain grizzly feeder 40 connected to the hopper 20 to filter out steelmaking slag of 60 mm or less, and to break 60 mm or more of steelmaking slag not passed through the grizzly feeder 40 to 60 mm or less. The jaw crusher 50 and the first and second magnetic separators 30 and 31 for separating the iron mixed in the steelmaking slag is made large.

As shown in FIG. 2, firstly, the present invention simply separates the steelmaking slag of 300 mm or less by the adapter screen 10 capable of filtering the large and the small according to the particle size in the steelmaking slag raw material collection site.

The steelmaking slag of 300 mm or more is transported by the second conveying conveyor 92 installed at one side and crushed by the breaker 80, and then moved to the adapter screen 10 via the first conveying conveyor 91 to be sorted.

Steelmaking slag separated by 300 mm or less by the adapter screen 10 is automatically dropped into the hopper 20, which is a bottom-opened container in the shape of a trumpet, and is introduced into the hopper 20 and then the third conveying conveyor 93. Is moved so that it is moved to the grizzly feeder 40 installed on the distal end of the third conveying conveyor (93).

At this time, the first magnetic separator 30 is installed on the upper portion of the third conveying conveyor 93 so as to be spaced apart from the third conveying conveyor 93 at a predetermined interval, and among the steelmaking slag selected by the adapter screen 10. Select and remove to one side.

The grizzly feeder 40 is a coarse eye sieve restricting dimensions to remove large lumps of raw stones supplied from the crushed stone plant, and 60 mm or less of steelmaking slag of the steelmaking slag moved from the hopper 20 is passed through, and 60 mm. The steelmaking slag is moved to the fifth conveying conveyor 95 installed at one side so as to be crushed to 60 mm or less by the jaw crusher 50 provided at the end of the fifth conveying conveyor 95.

That is, the steel slag of 60mm or less that passed through the grizzly feeder 40 is moved to one side by the fourth conveying conveyor 94, and the steelmaking slag of 60mm or more is worn so that it can be crushed to the size below the required particle size. It is easy to exchange parts and is moved to the crusher 50 having a high crushing ratio, and is crushed.

The steelmaking slag selected by the grizzly feeder 40 and the jaw crusher 50 moves the fourth conveying conveyor 94 and the sixth conveying conveyor 96, respectively, and foreign substances are sorted by the naked eye by hand. Are respectively removed by secondary magnetic separators 31 and 31 'installed at the upper portions of the fourth and sixth conveying conveyors 94 and 96, respectively.

Here, the jaw crusher 50 is provided with two teeth facing each other at a constant vertical length, of which one tooth is fixed and the other is an eccentric motion of the main shaft with the upper or lower portion as a supporting point. Reciprocating motion, and the steel slag introduced between the teeth plate is configured to be crushed by the movement of the moving teeth and discharged by the retreat.

In another embodiment, as shown in FIG. 2, in the downward direction of the grizzly feeder 40, the blower 71 and the sprayer 70 are separated to adsorb and adsorb dust 60 generated during the screening process of steelmaking slag. It may be installed more.

The blower 71 is installed at the lower portion of the grizzly feeder 40 so that the dust 60 generated in the process of separating steelmaking slag from the grizzly feeder 40 to 60 mm or less moves in one direction.

In addition, the nebulizer 70 is installed so that the blower 71 is interposed with the steelmaking slag separated from the grizzly feeder 40 so that the dust 60 moves in one direction by the blower 71. 60) is configured to spray the water droplets downward to adsorb.

The water droplets sprayed from the sprayer 70 are preferably maintained evenly in the range not too large or too small. That is, when the water droplets are too large, the dust 60 is not adsorbed because they fall quickly by their own load. On the contrary, when the sprayed water droplets are too small, the dust is blown by the strong wind of the blower so that the desired dust 60 is not removed.

On the other hand, the steelmaking slag crushed by the jaw crusher 50 is moved to one side by the sixth conveying conveyor 96, the foreign matter mixed in the steelmaking slag is removed by hand, iron is a secondary magnetic separator (31) ) Is removed by magnetic force.

The steel slag from which iron was removed by the secondary magnetic separator (31) (31 ') is moved to aging growth, and after removal of sulfur components through aging process for several months (1 to 3 months) of aging. Used.

Here, aging is a process for oxidizing sulfur in steelmaking slag by air and water in the case of blast furnace cold slag, and chemically stabilizing. In the process of aging, sulfur in steelmaking slag is gradually oxidized to produce intermediate products. Finally, it becomes a stabilized sulfate. In other words, the expandable reactants (glass lime, etc.) in the steelmaking slag are chemically stabilized by hydration reaction and carbonation with air and water. At this time, in the process of aging, the expandable reactants in the steelmaking slag are hydroxylated and carbonated to finally become stable hydroxides and carbonates.

In the aging method, cooling solidified and ground crushed steel slag is piled up several meters in height outdoors, and it is kept in the air until steelmaking slag stabilizes, or cooling solidified and crushed steel slag is immersed in hot water and sprayed hot water. It is preferable to promote the stabilization of the steelmaking slag by steaming hot water aging and steelmaking slag.

As such, when steelmaking slag is crushed and aged for one to three months after watering, sulfur components are decomposed and evaporated, aggregate expansion is stopped, stabilized, and classified as recycled materials with no pollution. It can be used as a backfill material for a landfill, an aggregate for a brick, an aggregate for a road, an aggregate for a fill, an anti-skid aggregate, an aggregate for a cover, an aggregate for a railroad drawing.

Particularly, when used as an auxiliary base material for road, steel (steel) slag has a composition similar to that of cement, and has good aggregate bonding property, and can be installed in rainy weather with low sensitivity to water content, and has excellent ruler construction, abrasion resistance, and fluid resistance. There is an advantage. In addition, when used for coarse surface landfills (reservoir aggregates, landfill backfills) and rough soils, the stability and workability are greatly improved, and the water permeability improves smooth drainage in the fillets and reduces the risk of lateral flow and consolidation settlement of the soft layer. You can.

On the other hand, each device is provided with a separate drive motor or a power transmission means, the detailed description thereof will be omitted.

While the invention has been shown and described with respect to particular embodiments, it will be appreciated that the invention can be variously modified and varied without departing from the spirit or scope of the invention as provided by the following claims. It will be clear to those skilled in the art that it is very easy to know.

As described above, according to the present invention, the steel slag recycling facility is installed to crush the charged steel slag to 60 mm or less to completely remove foreign substances (scrap metals) mixed in the steel slag, and the produced product is aged by aging growth for a certain period of time. By removing the has an excellent effect that can be used as a recycled product.

In addition, there is an effect to improve the work efficiency by removing the pollution, such as dust and noise during the crushing process of steelmaking slag.

In addition, it prevents damage to the natural environment due to the use of aggregates of slag, eliminates resource shortages by recycling processed aggregates, and provides low cost and low cost of natural aggregates. It is cheaper and easier to install than the solution and the soft aggregates.

After all, in consideration of the government's policy on recycled products, the excellence of the product, and the reduction of the budget, steel (steel) slag is used instead of general gravel (aggregate) for the auxiliary base material for roads or for the sanctuary (playground) of public facilities. Not only is this efficient, it also has the effect of responding to the resource recycling aspect and the government's policy on priority purchase of recycled products.

Claims (7)

Adapter screen (10) for filtering steelmaking slag of less than 300mm for the steelmaking slag quarry, A grizzly feeder 40 installed at the distal end of the third conveying conveyor 93 connected to the adapter screen 10 to sort steelmaking slag of 60 mm or less; A jaw crusher (50) installed at the distal end of the fifth conveying conveyor (95) connected to the grizzly feeder (40) for extruding and crushing steelmaking slag of 60 mm or more moved from the grizzly feeder (40); The first magnetic separator 30 and the second magnetic separator 31, respectively, installed to be spaced apart from the third, fourth, and sixth transfer conveyors 93, 94, 96 to separate iron from the selected steelmaking slag. Aggregate manufacturing apparatus using steelmaking slag composed of (31 '). According to claim 1, Blower 71 for moving the dust 60 generated in the process of sorting by the grizzly feeder 40 to one side in the downward direction of the grizzly feeder 40, and the moved dust Aggregate manufacturing apparatus using the steelmaking slag, characterized in that the sprayer 70 for spraying the water droplets downward so that 60 is adsorbed by the water droplets. Firstly separating the steelmaking slag into a predetermined granularity through the adapter screen 10 and introducing the steel slag into the hopper 20; Second sorting the first sorted slag to a predetermined granularity in the grizzly feeder 40 installed below the hopper 20; Crushing the slag having a predetermined size not passed through the grizzly feeder 40 by the jaw crusher 50; Removing foreign matters from the slag crushed by the steelmaking slag and jaw crusher (50), which are secondarily sorted through the grizzly feeder (40), and removing iron by a secondary magnetic separator (31) (31 '); Aggregate manufacturing method using steelmaking slag comprising the step of moving the slag from which iron is removed to aging growth for a certain period of time. The method of claim 3, wherein the primary sorting step, using the adapter screen 10 having a particle size of 300mm or less to sort the slag of 300mm or less, the slag of 300mm or more is loaded into the second transfer conveyor 92 Method of producing aggregate using steelmaking slag, which is moved to the adapter screen 10 after being broken by the breaker 80. The method of claim 3, wherein the secondary sorting step, using the grizzly feeder 40 having a particle size of 60mm or less, to sort the slag of 60mm or less, the slag that does not pass through the grizzly feeder 40 is jaw crusher ( 50) Aggregate manufacturing method using steelmaking slag, characterized in that crushed into slag of less than 60mm through. The method of claim 3, wherein the secondary screening step, the dust 60 generated during the screening in the grizzly feeder 40 is moved in one direction by the blower 71 provided on one side, and the water droplets are ejected in the downward direction. Method for producing aggregate using steelmaking slag characterized in that the sprayer 70 is installed to move the dust (60) to be moved to the water droplets is installed. The aggregate using the steelmaking slag according to any one of claims 3 to 5, wherein the aggregate produced has a particle size of 60 mm or less from which sulfur is removed.